Hamiltonian Time Evolution for General Relativity

Abstract

Hamiltonian time evolution in terms of an explicit parameter time is derived for general relativity, even when the constraints are not satisfied, from the Arnowitt-Deser-Misner-Teitelboim-Ashtekar action in which the slicing density α(x,t) is freely specified while the lapse N=α g1/2 is not. The constraint ``algebra'' becomes a well-posed evolution system for the constraints; this system is the twice-contracted Bianchi identity when Rij=0. The Hamiltonian constraint is an initial value constraint which determines g1/2 and hence N, given α.

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